Advantages:-
- 1. Cost of transmission is less, since only two conductors are used for transmission.
- 2. There is no reactive power. So transmission losses are reduced.
- 3. Due to high voltage transmission, for the same power current is less. So I2R loss is very less.
- 4. 4.Becau of DC transmission, there is no skin effect. So thin conductors can be used. In case of HVAC transmission, the thick conductors must be used to eliminate skin effect.
- 5.Two AC systems having different frequencies can be interconnected using HVDC transmission lines. This is not possible in HVAC transmission system.
- Installation cost is less. Due to only two conductors and smaller towers required for HVDC.
- 6. HVDC uses electronic converters. So Protections, fault clearance can be implemented faster than HVAC. Therefore DC transmission system have improved transient stability.
- 7. In case of faults, power levels on HVDC system can be controlled electronically (i.e., very fast).
- 8. Since HVDC requires no charging current and the reactive power, it is preferred in power transmission through cables.
- 9. Unlike HVDC transmission system, HVAC induces body currents in the vicinity of the conductors.
- 10.HVDC transmission does not have any dielectric loss heating problems in the insulation of conductors.
- 11. H has minimum audible noise as well as minimum radio, TV interference.
- Due to bipolar transmission the voltage levels are balanced with respect to an earth.
- 12 cables used for transmission are cheaper than AC cables.
- In HVDC, line charging and electric resonance do not present which leads to high-efficiency
- 13. biggest advantage is the Bulk Power flow over a long distance. Our project is designed to transmit 6000 MW of Power over 1700 km.
- 14.Less Right of Way (ROW) is required i.e. HVAC having 3 phases need a larger tower as compared to HVDC having only 2 conductor
- 15.Lesser Line Losses are there. As the transmission voltage in HVDC is very high ( 800 kV in our case ) so for required power level the Load current will be Low & hence the I² R losses will be Low.
- 16.Power Flow Control is possible. We can control the magnitude of Power that is to be transmitted, Also we can change/reverse the direction of Power flow by Running Rectifier as Inverter & vice-versa
- 18.It act as a Link between two different Power system running at two different frequencies.
Disadvantages:-
- It has costlier equipment such as thyristors, converter transformers etc.
- More Research & Development is involved in HVDC System.
- It’s working is dependent on the various auxiliaries such as Valve Cooling system ( used to cool the Thyristors of Rectifier & Inverter ) , AC FIlters (used to supress the Harmonics generated during AC to DC & DC to AC Conversion).
- Reactive Power Support is required. Although this criteria is fulfilled by the AC Harmonic filters ( made up of R-L-C).
